LTC3879EUD#PBF (Linear) PDF资料下载 Datasheet(19/28 页)

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参数资料

型号：	LTC3879EUD#PBF
厂商：	Linear Technology
文件页数：	19/28页
文件大小：	0K
描述：	IC REG CTRLR BUCK PWM CM 16-QFN
标准包装：	121
PWM 型：	电流模式
输出数：	1
频率 - 最大：	2MHz
占空比：	90%
电源电压：	4 V ~ 38 V
降压：	是
升压：	无
回扫：	无
反相：	无
倍增器：	无
除法器：	无
Cuk：	无
隔离：	无
工作温度：	-40°C ~ 85°C
封装/外壳：	16-WFQFN 裸露焊盘
包装：	管件
产品目录页面：	1336 (CN2011-ZH PDF)

LTC3879

APPLICATIONS INFORMATION

R ON =

= 429 k

L =

? ? 1 – 2 8 ? ? = 0 . 55 μH

= g

I LIMIT 1 0 . 6

f GCO m ( EA ) ? R C ?

2 ? π ? C OUT

V OUT

Δ I L =

? ? 1 – 2 8 V ? ? = 5 . 1 A

Other losses, which include the C OUT ESR loss, bottom

MOSFET reverse recovery loss and inductor core loss

generally account for less than 2% additional loss.

When making adjustments to improve ef?ciency, the input

current is the best indicator of changes in ef?ciency. If you

make a change and the input current decreases, then the

ef?ciency has increased. If there is no change in input

current there is no change in ef?ciency.

Checking Transient Response

The regulator loop response can be checked by look-

ing at the load transient response. Switching regulators

take several cycles to respond to a step in load current.

When a load step occurs, V OUT immediately shifts by an

amount equal to Δ I LOAD (ESR), where ESR is the effective

series resistance of C OUT . Δ I LOAD also begins to charge

or discharge C OUT , generating a feedback error signal

used by the regulator to return V OUT to its steady-state

value. During this recovery time, V OUT can be monitored

for overshoot or ringing that would indicate a stability

problem. The I TH pin external components shown in the

Design Example will provide adequate compensation for

most applications.

A rough compensation check can be made by calculating

the gain crossover frequency, f GCO . g m(EA) is the error

ampli?er transconductance, R C is the compensation re-

sistor and feedback divider attenuation is assumed to be

0.6V/V OUT . This equation assumes that no feed-forward

compensation is used on feedback and that C OUT sets the

dominant output pole.

? ?

1 . 6

As a rule of thumb the gain crossover frequency should be

less than 20% of the switching frequency. For a detailed

explanation of switching control loop theory see Applica-

tion Note 76.

High Switching Frequency Operation

Special care should be taken when operating at switch-

ing frequencies greater than 800kHz. At high switching

frequencies there may be an increased sensitivity to

PCB noise which may result in off-time variation greater

than normal. This off-time instability can be prevented

in several ways. First, carefully follow the recommended

layout techniques. Second, use 2μF or more of X5R or

X7R ceramic input capacitance per Amp of load current.

Third, if necessary, increase the bottom MOSFET ripple

voltage to 30mV P-P or greater. This ripple voltage is equal

to R DS(ON) typical at 25°C ? I P-P .

Design Example

Figure 10 is a power supply design example with the fol-

lowing speci?cations: V IN = 4.5V to 28V (12V nominal),

V OUT = 1.2V ±5%, I OUT(MAX) = 15A and f = 400kHz. Start

by calculating the timing resistor, R ON :

1 . 2 V

0 . 7 V ? 400 kHz ? 10 pF

Select the nearest standard resistor value of 432k for a

nominal operating frequency of 396kHz. Set the inductor

value to give 35% ripple current at maximum V IN using

the adjusted operating frequency:

1 . 2 V ? 1. 2 ?

396 kHz ? 0 . 35 ? 15 A

Select 0.56μH which is the nearest value.

The resulting maximum ripple current is:

1 . 2 V ? 1.2 V ?

396 kHz ? 0 . 56 μH

Choose the synchronous bottom MOSFET switch and

calculate the V RNG current limit set-point. To calculate

V RNG and V DS , the ρτ term normalization factor (unity

3879f

19

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